Section "Nanospin Electrons" - Nanoelectronics

"Nanospin Electrons"  electronic quantum nanoparticles (easier available)

Researcher  and author: Dr.   (   Afshin Rashid)


Note: In the structure of  "Nano Spin Electrons",  the change in the distance between the atoms of the particles and the geometry of the particles also affects the electronic properties of the material. When the size of the particles decreases, the electrical bonds in metals become finer.

In the structure of "nano spin electrons"  nanoparticles, the electronic quantity that is more easily available is the ionization potential. The ionization potential  is greater in the size of small grains (smaller particles), that is, with the increase in the size of the particles, their ionization potential decreases, increasing the surface to  volume ratio. Changes in the geometry and electronic structure of  "nano spin electrons"  have a strong impact on the chemical interactions of matter, and for example, the activity of small particles changes with a change in the number of atoms (and thus the size of the particles).






How to produce and multiply nanoparticles and the electronic properties of "nano spin electrons"  : 

In general, chemical reactions to produce  "nano spin electrons"  can  take place in any of the solid, liquid and gas states. The common method  for  solid "nano-spin electrons"  is that by crushing the particles,  their contact surface is increased, and in order to increase the penetration of atoms  and ions, this mixture is increased at high temperatures. In chemistry, substances with which chemical reactions begin are called reactants, and substances that  are converted into reactants during the reaction are called products. Reactants can be solid, liquid or gas. In addition, the reactants are either an independent element or can be multi-component compounds. Multicomponent compounds are usually called precursors.


Note: Many methods   have been developed for "nano-spin electrons" or nano-structured particles, which include vapor, liquid and solid state processes.



(conclusion) of nanoparticles and electronic properties of  "nano spin electrons"

One of the important properties of  "Nano Spin Electrons"  is the high surface to volume ratio of these materials. By using this property, powerful catalysts can be produced in nanometer dimensions. These nanocatalysts will  greatly increase the efficiency of chemical reactions and also significantly prevent the production of waste materials in reactions. The use of  "Nano Spin Electrons"  in the production of other materials can increase their strength or reduce their weight, increase their chemical and thermal resistance,  and change their reaction to light and other radiations. So, the first application for  " "Nano spin electrons"  can be imagined, the use of these materials in the  production of nanocomposites in nanotransistors. Using  "Nanospin Electrons", the strength-to-weight ratio of composite materials will increase greatly.

Researcher  and author: Dr.   (   Afshin Rashid)

Specialized doctorate in nano-microelectronics